Distinguishing Different Stackings in Layered Materials via Luminescence Spectroscopy

Matteo Zanfrognini; Alexandre Plaud; Ingrid Stenger; Frédéric Fossard; Lorenzo Sponza; Léonard Schué; Fulvio Paleari; Elisa Molinari; Daniele Varsano; Ludger Wirtz; François Ducastelle; Annick Loiseau; Julien Barjon

doi:10.1103/PhysRevLett.131.206902

Distinguishing Different Stackings in Layered Materials via Luminescence Spectroscopy

Matteo Zanfrognini
, Alexandre Plaud
, Ingrid Stenger
, Frédéric Fossard
, Lorenzo Sponza
, Léonard Schué
, Fulvio Paleari
, Elisa Molinari
, Daniele Varsano
, Ludger Wirtz
, François Ducastelle
, Annick Loiseau
, Julien Barjon

Research output: Contribution to journal › Article › peer-review

Abstract

Despite its simple crystal structure, layered boron nitride features a surprisingly complex variety of phonon-assisted luminescence peaks. We present a combined experimental and theoretical study on ultraviolet-light emission in hexagonal and rhombohedral bulk boron nitride crystals. Emission spectra of high-quality samples are measured via cathodoluminescence spectroscopy, displaying characteristic differences between the two polytypes. These differences are explained using a fully first-principles computational technique that takes into account radiative emission from "indirect,"finite-momentum excitons via coupling to finite-momentum phonons. We show that the differences in peak positions, number of peaks, and relative intensities can be qualitatively and quantitatively explained, once a full integration over all relevant momenta of excitons and phonons is performed.

Original language	English
Article number	206902
Journal	Physical Review Letters
Volume	131
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevLett.131.206902
Publication status	Published - 17 Nov 2023
Externally published	Yes

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10.1103/PhysRevLett.131.206902

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title = "Distinguishing Different Stackings in Layered Materials via Luminescence Spectroscopy",

abstract = "Despite its simple crystal structure, layered boron nitride features a surprisingly complex variety of phonon-assisted luminescence peaks. We present a combined experimental and theoretical study on ultraviolet-light emission in hexagonal and rhombohedral bulk boron nitride crystals. Emission spectra of high-quality samples are measured via cathodoluminescence spectroscopy, displaying characteristic differences between the two polytypes. These differences are explained using a fully first-principles computational technique that takes into account radiative emission from {"}indirect,{"}finite-momentum excitons via coupling to finite-momentum phonons. We show that the differences in peak positions, number of peaks, and relative intensities can be qualitatively and quantitatively explained, once a full integration over all relevant momenta of excitons and phonons is performed.",

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note = "Publisher Copyright: {\textcopyright} 2023 American Physical Society.",

year = "2023",

month = nov,

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doi = "10.1103/PhysRevLett.131.206902",

language = "English",

volume = "131",

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TY - JOUR

T1 - Distinguishing Different Stackings in Layered Materials via Luminescence Spectroscopy

AU - Zanfrognini, Matteo

AU - Plaud, Alexandre

AU - Stenger, Ingrid

AU - Fossard, Frédéric

AU - Sponza, Lorenzo

AU - Schué, Léonard

AU - Paleari, Fulvio

AU - Molinari, Elisa

AU - Varsano, Daniele

AU - Wirtz, Ludger

AU - Ducastelle, François

AU - Loiseau, Annick

AU - Barjon, Julien

PY - 2023/11/17

Y1 - 2023/11/17

N2 - Despite its simple crystal structure, layered boron nitride features a surprisingly complex variety of phonon-assisted luminescence peaks. We present a combined experimental and theoretical study on ultraviolet-light emission in hexagonal and rhombohedral bulk boron nitride crystals. Emission spectra of high-quality samples are measured via cathodoluminescence spectroscopy, displaying characteristic differences between the two polytypes. These differences are explained using a fully first-principles computational technique that takes into account radiative emission from "indirect,"finite-momentum excitons via coupling to finite-momentum phonons. We show that the differences in peak positions, number of peaks, and relative intensities can be qualitatively and quantitatively explained, once a full integration over all relevant momenta of excitons and phonons is performed.

AB - Despite its simple crystal structure, layered boron nitride features a surprisingly complex variety of phonon-assisted luminescence peaks. We present a combined experimental and theoretical study on ultraviolet-light emission in hexagonal and rhombohedral bulk boron nitride crystals. Emission spectra of high-quality samples are measured via cathodoluminescence spectroscopy, displaying characteristic differences between the two polytypes. These differences are explained using a fully first-principles computational technique that takes into account radiative emission from "indirect,"finite-momentum excitons via coupling to finite-momentum phonons. We show that the differences in peak positions, number of peaks, and relative intensities can be qualitatively and quantitatively explained, once a full integration over all relevant momenta of excitons and phonons is performed.

U2 - 10.1103/PhysRevLett.131.206902

DO - 10.1103/PhysRevLett.131.206902

M3 - Article

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AN - SCOPUS:85178332448

SN - 0031-9007

VL - 131

JO - Physical Review Letters

JF - Physical Review Letters

IS - 20

M1 - 206902

ER -

Distinguishing Different Stackings in Layered Materials via Luminescence Spectroscopy

Abstract

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